Functional expression of AMPA receptors on central terminals of rat dorsal root ganglion neurons and presynaptic inhibition of glutamate release

C. Justin Lee; Rita Bardoni; Chi Kun Tong; Holly Sue Engelman; Donald J. Joseph; Pier Cosimo Magherini; Amy B. MacDermott

doi:10.1016/S0896-6273(02)00729-8

Functional expression of AMPA receptors on central terminals of rat dorsal root ganglion neurons and presynaptic inhibition of glutamate release

C. Justin Lee, Rita Bardoni, Chi Kun Tong, Holly Sue Engelman, Donald J. Joseph, Pier Cosimo Magherini, Amy B. MacDermott

KU-KIST Graduate School of Converging Science and Technology

Research output: Contribution to journal › Article › peer-review

103 Citations (Scopus)

Abstract

No direct evidence has been found for expression of functional AMPA receptors by dorsal root ganglion neurons despite immunocytochemical evidence suggesting they are present. Here we report evidence for expression of functional AMPA receptors by a subpopulation of dorsal root ganglion neurons. The AMPA receptors are most prominently located near central terminals of primary afferent fibers. AMPA and kainate receptors were detected by recording receptor-mediated depolarization of the central terminals under selective pharmacological conditions. We demonstrate that activation of presynaptic AMPA receptors by exogenous agonists causes inhibition of glutamate release from the terminals, possibly via primary afferent depolarization (PAD). These results challenge the traditional view that GABA and GABA_A receptors exclusively mediate PAD, and indicate that PAD is also mediated by glutamate acting on presynaptically localized AMPA and kainate receptors.

Original language	English
Pages (from-to)	135-146
Number of pages	12
Journal	Neuron
Volume	35
Issue number	1
DOIs	https://doi.org/10.1016/S0896-6273(02)00729-8
Publication status	Published - 2002 Jul 3

Bibliographical note

Funding Information:
This work was supported by the Christopher Reeve Paralysis Foundation, MURST, NIH NS 29797, and NS 40428. Our thanks to EGIS Pharmaceutical Ltd for the gift of GYKI 53655.

ASJC Scopus subject areas

Neuroscience(all)

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10.1016/S0896-6273(02)00729-8

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title = "Functional expression of AMPA receptors on central terminals of rat dorsal root ganglion neurons and presynaptic inhibition of glutamate release",

abstract = "No direct evidence has been found for expression of functional AMPA receptors by dorsal root ganglion neurons despite immunocytochemical evidence suggesting they are present. Here we report evidence for expression of functional AMPA receptors by a subpopulation of dorsal root ganglion neurons. The AMPA receptors are most prominently located near central terminals of primary afferent fibers. AMPA and kainate receptors were detected by recording receptor-mediated depolarization of the central terminals under selective pharmacological conditions. We demonstrate that activation of presynaptic AMPA receptors by exogenous agonists causes inhibition of glutamate release from the terminals, possibly via primary afferent depolarization (PAD). These results challenge the traditional view that GABA and GABAA receptors exclusively mediate PAD, and indicate that PAD is also mediated by glutamate acting on presynaptically localized AMPA and kainate receptors.",

author = "Lee, {C. Justin} and Rita Bardoni and Tong, {Chi Kun} and Engelman, {Holly Sue} and Joseph, {Donald J.} and Magherini, {Pier Cosimo} and MacDermott, {Amy B.}",

note = "Funding Information: This work was supported by the Christopher Reeve Paralysis Foundation, MURST, NIH NS 29797, and NS 40428. Our thanks to EGIS Pharmaceutical Ltd for the gift of GYKI 53655.",

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AU - Lee, C. Justin

AU - Bardoni, Rita

AU - Tong, Chi Kun

AU - Engelman, Holly Sue

AU - Joseph, Donald J.

AU - Magherini, Pier Cosimo

AU - MacDermott, Amy B.

N1 - Funding Information: This work was supported by the Christopher Reeve Paralysis Foundation, MURST, NIH NS 29797, and NS 40428. Our thanks to EGIS Pharmaceutical Ltd for the gift of GYKI 53655.

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N2 - No direct evidence has been found for expression of functional AMPA receptors by dorsal root ganglion neurons despite immunocytochemical evidence suggesting they are present. Here we report evidence for expression of functional AMPA receptors by a subpopulation of dorsal root ganglion neurons. The AMPA receptors are most prominently located near central terminals of primary afferent fibers. AMPA and kainate receptors were detected by recording receptor-mediated depolarization of the central terminals under selective pharmacological conditions. We demonstrate that activation of presynaptic AMPA receptors by exogenous agonists causes inhibition of glutamate release from the terminals, possibly via primary afferent depolarization (PAD). These results challenge the traditional view that GABA and GABAA receptors exclusively mediate PAD, and indicate that PAD is also mediated by glutamate acting on presynaptically localized AMPA and kainate receptors.

AB - No direct evidence has been found for expression of functional AMPA receptors by dorsal root ganglion neurons despite immunocytochemical evidence suggesting they are present. Here we report evidence for expression of functional AMPA receptors by a subpopulation of dorsal root ganglion neurons. The AMPA receptors are most prominently located near central terminals of primary afferent fibers. AMPA and kainate receptors were detected by recording receptor-mediated depolarization of the central terminals under selective pharmacological conditions. We demonstrate that activation of presynaptic AMPA receptors by exogenous agonists causes inhibition of glutamate release from the terminals, possibly via primary afferent depolarization (PAD). These results challenge the traditional view that GABA and GABAA receptors exclusively mediate PAD, and indicate that PAD is also mediated by glutamate acting on presynaptically localized AMPA and kainate receptors.

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Functional expression of AMPA receptors on central terminals of rat dorsal root ganglion neurons and presynaptic inhibition of glutamate release

Abstract

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